
typedef int shortint;

/* *************************************************************** */
/* *************************************************************** */
/* ****     GENMMD ..... MULTIPLE MINIMUM EXTERNAL DEGREE     **** */
/* *************************************************************** */
/* *************************************************************** */

/*     AUTHOR - JOSEPH W.H. LIU */
/*              DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */

/*     PURPOSE - THIS ROUTINE IMPLEMENTS THE MINIMUM DEGREE */
/*        ALGORITHM.  IT MAKES USE OF THE IMPLICIT REPRESENTATION */
/*        OF ELIMINATION GRAPHS BY QUOTIENT GRAPHS, AND THE */
/*        NOTION OF INDISTINGUISHABLE NODES.  IT ALSO IMPLEMENTS */
/*        THE MODIFICATIONS BY MULTIPLE ELIMINATION AND MINIMUM */
/*        EXTERNAL DEGREE. */
/*        --------------------------------------------- */
/*        CAUTION - THE ADJACENCY VECTOR ADJNCY WILL BE */
/*        DESTROYED. */
/*        --------------------------------------------- */

/*     INPUT PARAMETERS - */
/*        NEQNS  - NUMBER OF EQUATIONS. */
/*        (XADJ,ADJNCY) - THE ADJACENCY STRUCTURE. */
/*        DELTA  - TOLERANCE VALUE FOR MULTIPLE ELIMINATION. */
/*        MAXINT - MAXIMUM MACHINE REPRESENTABLE (SHORT) INTEGER */
/*                 (ANY SMALLER ESTIMATE WILL DO) FOR MARKING */
/*                 NODES. */

/*     OUTPUT PARAMETERS - */
/*        PERM   - THE MINIMUM DEGREE ORDERING. */
/*        INVP   - THE INVERSE OF PERM. */
/*        NOFSUB - AN UPPER BOUND ON THE NUMBER OF NONZERO */
/*                 SUBSCRIPTS FOR THE COMPRESSED STORAGE SCHEME. */

/*     WORKING PARAMETERS - */
/*        DHEAD  - VECTOR FOR HEAD OF DEGREE LISTS. */
/*        INVP   - USED TEMPORARILY FOR DEGREE FORWARD LINK. */
/*        PERM   - USED TEMPORARILY FOR DEGREE BACKWARD LINK. */
/*        QSIZE  - VECTOR FOR SIZE OF SUPERNODES. */
/*        LLIST  - VECTOR FOR TEMPORARY LINKED LISTS. */
/*        MARKER - A TEMPORARY MARKER VECTOR. */

/*     PROGRAM SUBROUTINES - */
/*        MMDELM, MMDINT, MMDNUM, MMDUPD. */

/* *************************************************************** */

/* Subroutine */
int genmmd_(int *neqns, int *xadj, shortint *adjncy,
            shortint *invp, shortint *perm, int *delta, shortint *dhead,
            shortint *qsize, shortint *llist, shortint *marker, int *maxint,
            int *nofsub)
{
    /* System generated locals */
    int i__1;

    /* Local variables */
    static int mdeg, ehead, i, mdlmt, mdnode;
    extern /* Subroutine */ int mmdelm_(int *, int *, shortint *,
                                        shortint *, shortint *, shortint *, shortint *, shortint *,
                                        shortint *, int *, int *), mmdupd_(int *, int *,
                                                int *, shortint *, int *, int *, shortint *, shortint
                                                *, shortint *, shortint *, shortint *, shortint *, int *,
                                                int *), mmdint_(int *, int *, shortint *, shortint *,
                                                        shortint *, shortint *, shortint *, shortint *, shortint *),
                                                                 mmdnum_(int *, shortint *, shortint *, shortint *);
    static int nextmd, tag, num;


    /* *************************************************************** */


    /* *************************************************************** */

    /* Parameter adjustments */
    --marker;
    --llist;
    --qsize;
    --dhead;
    --perm;
    --invp;
    --adjncy;
    --xadj;

    /* Function Body */
    if (*neqns <= 0) {
        return 0;
    }

    /*        ------------------------------------------------ */
    /*        INITIALIZATION FOR THE MINIMUM DEGREE ALGORITHM. */
    /*        ------------------------------------------------ */
    *nofsub = 0;
    mmdint_(neqns, &xadj[1], &adjncy[1], &dhead[1], &invp[1], &perm[1], &
            qsize[1], &llist[1], &marker[1]);

    /*        ---------------------------------------------- */
    /*        NUM COUNTS THE NUMBER OF ORDERED NODES PLUS 1. */
    /*        ---------------------------------------------- */
    num = 1;

    /*        ----------------------------- */
    /*        ELIMINATE ALL ISOLATED NODES. */
    /*        ----------------------------- */
    nextmd = dhead[1];
L100:
    if (nextmd <= 0) {
        goto L200;
    }
    mdnode = nextmd;
    nextmd = invp[mdnode];
    marker[mdnode] = *maxint;
    invp[mdnode] = -num;
    ++num;
    goto L100;

L200:
    /*        ---------------------------------------- */
    /*        SEARCH FOR NODE OF THE MINIMUM DEGREE. */
    /*        MDEG IS THE CURRENT MINIMUM DEGREE; */
    /*        TAG IS USED TO FACILITATE MARKING NODES. */
    /*        ---------------------------------------- */
    if (num > *neqns) {
        goto L1000;
    }
    tag = 1;
    dhead[1] = 0;
    mdeg = 2;
L300:
    if (dhead[mdeg] > 0) {
        goto L400;
    }
    ++mdeg;
    goto L300;
L400:
    /*            ------------------------------------------------- */
    /*            USE VALUE OF DELTA TO SET UP MDLMT, WHICH GOVERNS */
    /*            WHEN A DEGREE UPDATE IS TO BE PERFORMED. */
    /*            ------------------------------------------------- */
    mdlmt = mdeg + *delta;
    ehead = 0;

L500:
    mdnode = dhead[mdeg];
    if (mdnode > 0) {
        goto L600;
    }
    ++mdeg;
    if (mdeg > mdlmt) {
        goto L900;
    }
    goto L500;
L600:
    /*                ---------------------------------------- */
    /*                REMOVE MDNODE FROM THE DEGREE STRUCTURE. */
    /*                ---------------------------------------- */
    nextmd = invp[mdnode];
    dhead[mdeg] = nextmd;
    if (nextmd > 0) {
        perm[nextmd] = -mdeg;
    }
    invp[mdnode] = -num;
    *nofsub = *nofsub + mdeg + qsize[mdnode] - 2;
    if (num + qsize[mdnode] > *neqns) {
        goto L1000;
    }
    /*                ---------------------------------------------- */
    /*                ELIMINATE MDNODE AND PERFORM QUOTIENT GRAPH */
    /*                TRANSFORMATION.  RESET TAG VALUE IF NECESSARY. */
    /*                ---------------------------------------------- */
    ++tag;
    if (tag < *maxint) {
        goto L800;
    }
    tag = 1;
    i__1 = *neqns;
    for (i = 1; i <= i__1; ++i) {
        if (marker[i] < *maxint) {
            marker[i] = 0;
        }
        /* L700: */
    }
L800:
    mmdelm_(&mdnode, &xadj[1], &adjncy[1], &dhead[1], &invp[1], &perm[1], &
            qsize[1], &llist[1], &marker[1], maxint, &tag);
    num += qsize[mdnode];
    llist[mdnode] = ehead;
    ehead = mdnode;
    if (*delta >= 0) {
        goto L500;
    }
L900:
    /*            ------------------------------------------- */
    /*            UPDATE DEGREES OF THE NODES INVOLVED IN THE */
    /*            MINIMUM DEGREE NODES ELIMINATION. */
    /*            ------------------------------------------- */
    if (num > *neqns) {
        goto L1000;
    }
    mmdupd_(&ehead, neqns, &xadj[1], &adjncy[1], delta, &mdeg, &dhead[1], &
            invp[1], &perm[1], &qsize[1], &llist[1], &marker[1], maxint, &tag)
    ;
    goto L300;

L1000:
    mmdnum_(neqns, &perm[1], &invp[1], &qsize[1]);
    return 0;

} /* genmmd_ */

/* *************************************************************** */
/* *************************************************************** */
/* ***     MMDINT ..... MULT MINIMUM DEGREE INITIALIZATION     *** */
/* *************************************************************** */
/* *************************************************************** */

/*     AUTHOR - JOSEPH W.H. LIU */
/*              DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */

/*     PURPOSE - THIS ROUTINE PERFORMS INITIALIZATION FOR THE */
/*        MULTIPLE ELIMINATION VERSION OF THE MINIMUM DEGREE */
/*        ALGORITHM. */

/*     INPUT PARAMETERS - */
/*        NEQNS  - NUMBER OF EQUATIONS. */
/*        (XADJ,ADJNCY) - ADJACENCY STRUCTURE. */

/*     OUTPUT PARAMETERS - */
/*        (DHEAD,DFORW,DBAKW) - DEGREE DOUBLY LINKED STRUCTURE. */
/*        QSIZE  - SIZE OF SUPERNODE (INITIALIZED TO ONE). */
/*        LLIST  - LINKED LIST. */
/*        MARKER - MARKER VECTOR. */

/* *************************************************************** */

/* Subroutine */ int mmdint_(int *neqns, int *xadj, shortint *adjncy,
                             shortint *dhead, shortint *dforw, shortint *dbakw, shortint *qsize,
                             shortint *llist, shortint *marker)
{
    /* System generated locals */
    int i__1;

    /* Local variables */
    static int ndeg, node, fnode;


    /* *************************************************************** */


    /* *************************************************************** */

    /* Parameter adjustments */
    --marker;
    --llist;
    --qsize;
    --dbakw;
    --dforw;
    --dhead;
    --adjncy;
    --xadj;

    /* Function Body */
    i__1 = *neqns;
    for (node = 1; node <= i__1; ++node) {
        dhead[node] = 0;
        qsize[node] = 1;
        marker[node] = 0;
        llist[node] = 0;
        /* L100: */
    }
    /*        ------------------------------------------ */
    /*        INITIALIZE THE DEGREE DOUBLY LINKED LISTS. */
    /*        ------------------------------------------ */
    i__1 = *neqns;
    for (node = 1; node <= i__1; ++node) {
        ndeg = xadj[node + 1] - xadj[node] + 1;
        fnode = dhead[ndeg];
        dforw[node] = fnode;
        dhead[ndeg] = node;
        if (fnode > 0) {
            dbakw[fnode] = node;
        }
        dbakw[node] = -ndeg;
        /* L200: */
    }
    return 0;

} /* mmdint_ */

/* *************************************************************** */
/* *************************************************************** */
/* **     MMDELM ..... MULTIPLE MINIMUM DEGREE ELIMINATION     *** */
/* *************************************************************** */
/* *************************************************************** */

/*     AUTHOR - JOSEPH W.H. LIU */
/*              DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */

/*     PURPOSE - THIS ROUTINE ELIMINATES THE NODE MDNODE OF */
/*        MINIMUM DEGREE FROM THE ADJACENCY STRUCTURE, WHICH */
/*        IS STORED IN THE QUOTIENT GRAPH FORMAT.  IT ALSO */
/*        TRANSFORMS THE QUOTIENT GRAPH REPRESENTATION OF THE */
/*        ELIMINATION GRAPH. */

/*     INPUT PARAMETERS - */
/*        MDNODE - NODE OF MINIMUM DEGREE. */
/*        MAXINT - ESTIMATE OF MAXIMUM REPRESENTABLE (SHORT) */
/*                 INT. */
/*        TAG    - TAG VALUE. */

/*     UPDATED PARAMETERS - */
/*        (XADJ,ADJNCY) - UPDATED ADJACENCY STRUCTURE. */
/*        (DHEAD,DFORW,DBAKW) - DEGREE DOUBLY LINKED STRUCTURE. */
/*        QSIZE  - SIZE OF SUPERNODE. */
/*        MARKER - MARKER VECTOR. */
/*        LLIST  - TEMPORARY LINKED LIST OF ELIMINATED NABORS. */

/* *************************************************************** */

/* Subroutine */ int mmdelm_(int *mdnode, int *xadj, shortint *adjncy,
                             shortint *dhead, shortint *dforw, shortint *dbakw, shortint *qsize,
                             shortint *llist, shortint *marker, int *maxint, int *tag)
{
    /* System generated locals */
    int i__1, i__2;

    /* Local variables */
    static int node, link, rloc, rlmt, i, j, nabor, rnode, elmnt, xqnbr,
           istop, jstop, istrt, jstrt, nxnode, pvnode, nqnbrs, npv;


    /* *************************************************************** */


    /* *************************************************************** */

    /*        ----------------------------------------------- */
    /*        FIND REACHABLE SET AND PLACE IN DATA STRUCTURE. */
    /*        ----------------------------------------------- */
    /* Parameter adjustments */
    --marker;
    --llist;
    --qsize;
    --dbakw;
    --dforw;
    --dhead;
    --adjncy;
    --xadj;

    /* Function Body */
    marker[*mdnode] = *tag;
    istrt = xadj[*mdnode];
    istop = xadj[*mdnode + 1] - 1;
    /*        ------------------------------------------------------- */
    /*        ELMNT POINTS TO THE BEGINNING OF THE LIST OF ELIMINATED */
    /*        NABORS OF MDNODE, AND RLOC GIVES THE STORAGE LOCATION */
    /*        FOR THE NEXT REACHABLE NODE. */
    /*        ------------------------------------------------------- */
    elmnt = 0;
    rloc = istrt;
    rlmt = istop;
    i__1 = istop;
    for (i = istrt; i <= i__1; ++i) {
        nabor = adjncy[i];
        if (nabor == 0) {
            goto L300;
        }
        if (marker[nabor] >= *tag) {
            goto L200;
        }
        marker[nabor] = *tag;
        if (dforw[nabor] < 0) {
            goto L100;
        }
        adjncy[rloc] = nabor;
        ++rloc;
        goto L200;
L100:
        llist[nabor] = elmnt;
        elmnt = nabor;
L200:
        ;
    }
L300:
    /*            ----------------------------------------------------- */
    /*            MERGE WITH REACHABLE NODES FROM GENERALIZED ELEMENTS. */
    /*            ----------------------------------------------------- */
    if (elmnt <= 0) {
        goto L1000;
    }
    adjncy[rlmt] = -elmnt;
    link = elmnt;
L400:
    jstrt = xadj[link];
    jstop = xadj[link + 1] - 1;
    i__1 = jstop;
    for (j = jstrt; j <= i__1; ++j) {
        node = adjncy[j];
        link = -node;
        if (node < 0) {
            goto L400;
        } else if (node == 0) {
            goto L900;
        } else {
            goto L500;
        }
L500:
        if (marker[node] >= *tag || dforw[node] < 0) {
            goto L800;
        }
        marker[node] = *tag;
        /*                            --------------------------------- */
        /*                            USE STORAGE FROM ELIMINATED NODES */
        /*                            IF NECESSARY. */
        /*                            --------------------------------- */
L600:
        if (rloc < rlmt) {
            goto L700;
        }
        link = -adjncy[rlmt];
        rloc = xadj[link];
        rlmt = xadj[link + 1] - 1;
        goto L600;
L700:
        adjncy[rloc] = node;
        ++rloc;
L800:
        ;
    }
L900:
    elmnt = llist[elmnt];
    goto L300;
L1000:
    if (rloc <= rlmt) {
        adjncy[rloc] = 0;
    }
    /*        -------------------------------------------------------- */
    /*        FOR EACH NODE IN THE REACHABLE SET, DO THE FOLLOWING ... */
    /*        -------------------------------------------------------- */
    link = *mdnode;
L1100:
    istrt = xadj[link];
    istop = xadj[link + 1] - 1;
    i__1 = istop;
    for (i = istrt; i <= i__1; ++i) {
        rnode = adjncy[i];
        link = -rnode;
        if (rnode < 0) {
            goto L1100;
        } else if (rnode == 0) {
            goto L1800;
        } else {
            goto L1200;
        }
L1200:
        /*                -------------------------------------------- */
        /*                IF RNODE IS IN THE DEGREE LIST STRUCTURE ... */
        /*                -------------------------------------------- */
        pvnode = dbakw[rnode];
        if (pvnode == 0 || pvnode == -(*maxint)) {
            goto L1300;
        }
        /*                    ------------------------------------- */
        /*                    THEN REMOVE RNODE FROM THE STRUCTURE. */
        /*                    ------------------------------------- */
        nxnode = dforw[rnode];
        if (nxnode > 0) {
            dbakw[nxnode] = pvnode;
        }
        if (pvnode > 0) {
            dforw[pvnode] = nxnode;
        }
        npv = -pvnode;
        if (pvnode < 0) {
            dhead[npv] = nxnode;
        }
L1300:
        /*                ---------------------------------------- */
        /*                PURGE INACTIVE QUOTIENT NABORS OF RNODE. */
        /*                ---------------------------------------- */
        jstrt = xadj[rnode];
        jstop = xadj[rnode + 1] - 1;
        xqnbr = jstrt;
        i__2 = jstop;
        for (j = jstrt; j <= i__2; ++j) {
            nabor = adjncy[j];
            if (nabor == 0) {
                goto L1500;
            }
            if (marker[nabor] >= *tag) {
                goto L1400;
            }
            adjncy[xqnbr] = nabor;
            ++xqnbr;
L1400:
            ;
        }
L1500:
        /*                ---------------------------------------- */
        /*                IF NO ACTIVE NABOR AFTER THE PURGING ... */
        /*                ---------------------------------------- */
        nqnbrs = xqnbr - jstrt;
        if (nqnbrs > 0) {
            goto L1600;
        }
        /*                    ----------------------------- */
        /*                    THEN MERGE RNODE WITH MDNODE. */
        /*                    ----------------------------- */
        qsize[*mdnode] += qsize[rnode];
        qsize[rnode] = 0;
        marker[rnode] = *maxint;
        dforw[rnode] = -(*mdnode);
        dbakw[rnode] = -(*maxint);
        goto L1700;
L1600:
        /*                -------------------------------------- */
        /*                ELSE FLAG RNODE FOR DEGREE UPDATE, AND */
        /*                ADD MDNODE AS A NABOR OF RNODE. */
        /*                -------------------------------------- */
        dforw[rnode] = nqnbrs + 1;
        dbakw[rnode] = 0;
        adjncy[xqnbr] = *mdnode;
        ++xqnbr;
        if (xqnbr <= jstop) {
            adjncy[xqnbr] = 0;
        }

L1700:
        ;
    }
L1800:
    return 0;

} /* mmdelm_ */

/* *************************************************************** */
/* *************************************************************** */
/* *****     MMDUPD ..... MULTIPLE MINIMUM DEGREE UPDATE     ***** */
/* *************************************************************** */
/* *************************************************************** */

/*     AUTHOR - JOSEPH W.H. LIU */
/*              DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */

/*     PURPOSE - THIS ROUTINE UPDATES THE DEGREES OF NODES */
/*        AFTER A MULTIPLE ELIMINATION STEP. */

/*     INPUT PARAMETERS - */
/*        EHEAD  - THE BEGINNING OF THE LIST OF ELIMINATED */
/*                 NODES (I.E., NEWLY FORMED ELEMENTS). */
/*        NEQNS  - NUMBER OF EQUATIONS. */
/*        (XADJ,ADJNCY) - ADJACENCY STRUCTURE. */
/*        DELTA  - TOLERANCE VALUE FOR MULTIPLE ELIMINATION. */
/*        MAXINT - MAXIMUM MACHINE REPRESENTABLE (SHORT) */
/*                 INTEGER. */

/*     UPDATED PARAMETERS - */
/*        MDEG   - NEW MINIMUM DEGREE AFTER DEGREE UPDATE. */
/*        (DHEAD,DFORW,DBAKW) - DEGREE DOUBLY LINKED STRUCTURE. */
/*        QSIZE  - SIZE OF SUPERNODE. */
/*        LLIST  - WORKING LINKED LIST. */
/*        MARKER - MARKER VECTOR FOR DEGREE UPDATE. */
/*        TAG    - TAG VALUE. */

/* *************************************************************** */

/* Subroutine */ int mmdupd_(int *ehead, int *neqns, int *xadj,
                             shortint *adjncy, int *delta, int *mdeg, shortint *dhead,
                             shortint *dforw, shortint *dbakw, shortint *qsize, shortint *llist,
                             shortint *marker, int *maxint, int *tag)
{
    /* System generated locals */
    int i__1, i__2;

    /* Local variables */
    static int node, mtag, link, mdeg0, i, j, enode, fnode, nabor, elmnt,
           istop, jstop, q2head, istrt, jstrt, qxhead, iq2, deg, deg0;


    /* *************************************************************** */


    /* *************************************************************** */

    /* Parameter adjustments */
    --marker;
    --llist;
    --qsize;
    --dbakw;
    --dforw;
    --dhead;
    --adjncy;
    --xadj;

    /* Function Body */
    mdeg0 = *mdeg + *delta;
    elmnt = *ehead;
L100:
    /*            ------------------------------------------------------- */
    /*            FOR EACH OF THE NEWLY FORMED ELEMENT, DO THE FOLLOWING. */
    /*            (RESET TAG VALUE IF NECESSARY.) */
    /*            ------------------------------------------------------- */
    if (elmnt <= 0) {
        return 0;
    }
    mtag = *tag + mdeg0;
    if (mtag < *maxint) {
        goto L300;
    }
    *tag = 1;
    i__1 = *neqns;
    for (i = 1; i <= i__1; ++i) {
        if (marker[i] < *maxint) {
            marker[i] = 0;
        }
        /* L200: */
    }
    mtag = *tag + mdeg0;
L300:
    /*            --------------------------------------------- */
    /*            CREATE TWO LINKED LISTS FROM NODES ASSOCIATED */
    /*            WITH ELMNT: ONE WITH TWO NABORS (Q2HEAD) IN */
    /*            ADJACENCY STRUCTURE, AND THE OTHER WITH MORE */
    /*            THAN TWO NABORS (QXHEAD).  ALSO COMPUTE DEG0, */
    /*            NUMBER OF NODES IN THIS ELEMENT. */
    /*            --------------------------------------------- */
    q2head = 0;
    qxhead = 0;
    deg0 = 0;
    link = elmnt;
L400:
    istrt = xadj[link];
    istop = xadj[link + 1] - 1;
    i__1 = istop;
    for (i = istrt; i <= i__1; ++i) {
        enode = adjncy[i];
        link = -enode;
        if (enode < 0) {
            goto L400;
        } else if (enode == 0) {
            goto L800;
        } else {
            goto L500;
        }

L500:
        if (qsize[enode] == 0) {
            goto L700;
        }
        deg0 += qsize[enode];
        marker[enode] = mtag;
        /*                        ---------------------------------- */
        /*                        IF ENODE REQUIRES A DEGREE UPDATE, */
        /*                        THEN DO THE FOLLOWING. */
        /*                        ---------------------------------- */
        if (dbakw[enode] != 0) {
            goto L700;
        }
        /*                            ---------------------------------------
        */
        /*                            PLACE EITHER IN QXHEAD OR Q2HEAD LISTS.
        */
        /*                            ---------------------------------------
        */
        if (dforw[enode] == 2) {
            goto L600;
        }
        llist[enode] = qxhead;
        qxhead = enode;
        goto L700;
L600:
        llist[enode] = q2head;
        q2head = enode;
L700:
        ;
    }
L800:
    /*            -------------------------------------------- */
    /*            FOR EACH ENODE IN Q2 LIST, DO THE FOLLOWING. */
    /*            -------------------------------------------- */
    enode = q2head;
    iq2 = 1;
L900:
    if (enode <= 0) {
        goto L1500;
    }
    if (dbakw[enode] != 0) {
        goto L2200;
    }
    ++(*tag);
    deg = deg0;
    /*                    ------------------------------------------ */
    /*                    IDENTIFY THE OTHER ADJACENT ELEMENT NABOR. */
    /*                    ------------------------------------------ */
    istrt = xadj[enode];
    nabor = adjncy[istrt];
    if (nabor == elmnt) {
        nabor = adjncy[istrt + 1];
    }
    /*                    ------------------------------------------------ */
    /*                    IF NABOR IS UNELIMINATED, INCREASE DEGREE COUNT. */
    /*                    ------------------------------------------------ */
    link = nabor;
    if (dforw[nabor] < 0) {
        goto L1000;
    }
    deg += qsize[nabor];
    goto L2100;
L1000:
    /*                        -------------------------------------------- */
    /*                        OTHERWISE, FOR EACH NODE IN THE 2ND ELEMENT, */
    /*                        DO THE FOLLOWING. */
    /*                        -------------------------------------------- */
    istrt = xadj[link];
    istop = xadj[link + 1] - 1;
    i__1 = istop;
    for (i = istrt; i <= i__1; ++i) {
        node = adjncy[i];
        link = -node;
        if (node == enode) {
            goto L1400;
        }
        if (node < 0) {
            goto L1000;
        } else if (node == 0) {
            goto L2100;
        } else {
            goto L1100;
        }

L1100:
        if (qsize[node] == 0) {
            goto L1400;
        }
        if (marker[node] >= *tag) {
            goto L1200;
        }
        /*                                -----------------------------------
        -- */
        /*                                CASE WHEN NODE IS NOT YET CONSIDERED
        . */
        /*                                -----------------------------------
        -- */
        marker[node] = *tag;
        deg += qsize[node];
        goto L1400;
L1200:
        /*                            ----------------------------------------
         */
        /*                            CASE WHEN NODE IS INDISTINGUISHABLE FROM
         */
        /*                            ENODE.  MERGE THEM INTO A NEW SUPERNODE.
         */
        /*                            ----------------------------------------
         */
        if (dbakw[node] != 0) {
            goto L1400;
        }
        if (dforw[node] != 2) {
            goto L1300;
        }
        qsize[enode] += qsize[node];
        qsize[node] = 0;
        marker[node] = *maxint;
        dforw[node] = -enode;
        dbakw[node] = -(*maxint);
        goto L1400;
L1300:
        /*                            --------------------------------------
        */
        /*                            CASE WHEN NODE IS OUTMATCHED BY ENODE.
        */
        /*                            --------------------------------------
        */
        if (dbakw[node] == 0) {
            dbakw[node] = -(*maxint);
        }
L1400:
        ;
    }
    goto L2100;
L1500:
    /*                ------------------------------------------------ */
    /*                FOR EACH ENODE IN THE QX LIST, DO THE FOLLOWING. */
    /*                ------------------------------------------------ */
    enode = qxhead;
    iq2 = 0;
L1600:
    if (enode <= 0) {
        goto L2300;
    }
    if (dbakw[enode] != 0) {
        goto L2200;
    }
    ++(*tag);
    deg = deg0;
    /*                        --------------------------------- */
    /*                        FOR EACH UNMARKED NABOR OF ENODE, */
    /*                        DO THE FOLLOWING. */
    /*                        --------------------------------- */
    istrt = xadj[enode];
    istop = xadj[enode + 1] - 1;
    i__1 = istop;
    for (i = istrt; i <= i__1; ++i) {
        nabor = adjncy[i];
        if (nabor == 0) {
            goto L2100;
        }
        if (marker[nabor] >= *tag) {
            goto L2000;
        }
        marker[nabor] = *tag;
        link = nabor;
        /*                                ------------------------------ */
        /*                                IF UNELIMINATED, INCLUDE IT IN */
        /*                                DEG COUNT. */
        /*                                ------------------------------ */
        if (dforw[nabor] < 0) {
            goto L1700;
        }
        deg += qsize[nabor];
        goto L2000;
L1700:
        /*                                    -------------------------------
        */
        /*                                    IF ELIMINATED, INCLUDE UNMARKED
        */
        /*                                    NODES IN THIS ELEMENT INTO THE
        */
        /*                                    DEGREE COUNT. */
        /*                                    -------------------------------
        */
        jstrt = xadj[link];
        jstop = xadj[link + 1] - 1;
        i__2 = jstop;
        for (j = jstrt; j <= i__2; ++j) {
            node = adjncy[j];
            link = -node;
            if (node < 0) {
                goto L1700;
            } else if (node == 0) {
                goto L2000;
            } else {
                goto L1800;
            }

L1800:
            if (marker[node] >= *tag) {
                goto L1900;
            }
            marker[node] = *tag;
            deg += qsize[node];
L1900:
            ;
        }
L2000:
        ;
    }
L2100:
    /*                    ------------------------------------------- */
    /*                    UPDATE EXTERNAL DEGREE OF ENODE IN DEGREE */
    /*                    STRUCTURE, AND MDEG (MIN DEG) IF NECESSARY. */
    /*                    ------------------------------------------- */
    deg = deg - qsize[enode] + 1;
    fnode = dhead[deg];
    dforw[enode] = fnode;
    dbakw[enode] = -deg;
    if (fnode > 0) {
        dbakw[fnode] = enode;
    }
    dhead[deg] = enode;
    if (deg < *mdeg) {
        *mdeg = deg;
    }
L2200:
    /*                    ---------------------------------- */
    /*                    GET NEXT ENODE IN CURRENT ELEMENT. */
    /*                    ---------------------------------- */
    enode = llist[enode];
    if (iq2 == 1) {
        goto L900;
    }
    goto L1600;
L2300:
    /*            ----------------------------- */
    /*            GET NEXT ELEMENT IN THE LIST. */
    /*            ----------------------------- */
    *tag = mtag;
    elmnt = llist[elmnt];
    goto L100;

} /* mmdupd_ */

/* *************************************************************** */
/* *************************************************************** */
/* *****     MMDNUM ..... MULTI MINIMUM DEGREE NUMBERING     ***** */
/* *************************************************************** */
/* *************************************************************** */

/*     AUTHOR - JOSEPH W.H. LIU */
/*              DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */

/*     PURPOSE - THIS ROUTINE PERFORMS THE FINAL STEP IN */
/*        PRODUCING THE PERMUTATION AND INVERSE PERMUTATION */
/*        VECTORS IN THE MULTIPLE ELIMINATION VERSION OF THE */
/*        MINIMUM DEGREE ORDERING ALGORITHM. */

/*     INPUT PARAMETERS - */
/*        NEQNS  - NUMBER OF EQUATIONS. */
/*        QSIZE  - SIZE OF SUPERNODES AT ELIMINATION. */

/*     UPDATED PARAMETERS - */
/*        INVP   - INVERSE PERMUTATION VECTOR.  ON INPUT, */
/*                 IF QSIZE(NODE)=0, THEN NODE HAS BEEN MERGED */
/*                 INTO THE NODE -INVP(NODE); OTHERWISE, */
/*                 -INVP(NODE) IS ITS INVERSE LABELLING. */

/*     OUTPUT PARAMETERS - */
/*        PERM   - THE PERMUTATION VECTOR. */

/* *************************************************************** */

/* Subroutine */ int mmdnum_(int *neqns, shortint *perm, shortint *invp,
                             shortint *qsize)
{
    /* System generated locals */
    int i__1;

    /* Local variables */
    static int node, root, nextf, father, nqsize, num;


    /* *************************************************************** */


    /* *************************************************************** */

    /* Parameter adjustments */
    --qsize;
    --invp;
    --perm;

    /* Function Body */
    i__1 = *neqns;
    for (node = 1; node <= i__1; ++node) {
        nqsize = qsize[node];
        if (nqsize <= 0) {
            perm[node] = invp[node];
        }
        if (nqsize > 0) {
            perm[node] = -invp[node];
        }
        /* L100: */
    }
    /*        ------------------------------------------------------ */
    /*        FOR EACH NODE WHICH HAS BEEN MERGED, DO THE FOLLOWING. */
    /*        ------------------------------------------------------ */
    i__1 = *neqns;
    for (node = 1; node <= i__1; ++node) {
        if (perm[node] > 0) {
            goto L500;
        }
        /*                ----------------------------------------- */
        /*                TRACE THE MERGED TREE UNTIL ONE WHICH HAS */
        /*                NOT BEEN MERGED, CALL IT ROOT. */
        /*                ----------------------------------------- */
        father = node;
L200:
        if (perm[father] > 0) {
            goto L300;
        }
        father = -perm[father];
        goto L200;
L300:
        /*                ----------------------- */
        /*                NUMBER NODE AFTER ROOT. */
        /*                ----------------------- */
        root = father;
        num = perm[root] + 1;
        invp[node] = -num;
        perm[root] = num;
        /*                ------------------------ */
        /*                SHORTEN THE MERGED TREE. */
        /*                ------------------------ */
        father = node;
L400:
        nextf = -perm[father];
        if (nextf <= 0) {
            goto L500;
        }
        perm[father] = -root;
        father = nextf;
        goto L400;
L500:
        ;
    }
    /*        ---------------------- */
    /*        READY TO COMPUTE PERM. */
    /*        ---------------------- */
    i__1 = *neqns;
    for (node = 1; node <= i__1; ++node) {
        num = -invp[node];
        invp[node] = num;
        perm[num] = node;
        /* L600: */
    }
    return 0;

} /* mmdnum_ */

